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Related Concept Videos

Asthma-II: Pathophysiology and Classification01:26

Asthma-II: Pathophysiology and Classification

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Asthma is a prevalent chronic respiratory condition marked by inflammation and hyperresponsiveness of the airways. Its pathophysiology involves complex interactions among inflammatory pathways, immune responses, and neural mechanisms.
Additionally, environmental and genetic factors play crucial roles in determining an individual's susceptibility to asthma and the severity of their condition.
Critical processes in asthma pathophysiology include:
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Asthma: Pathogenesis and Management01:20

Asthma: Pathogenesis and Management

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Asthma is a chronic pulmonary condition involving inflammation of the airways, hyper-reactivity, and reversible obstruction of the airways. This condition can significantly impact a person's quality of life, making breathing difficult and leading to distressing symptoms.
Asthma is classified as allergic and non-allergic. Allergens such as dust mites, pollen, and pet dander trigger allergic asthma, while factors like cold air, intense emotions, or exercise can induce non-allergic asthma.
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Antiasthma Drugs: Mast Cell Stabilizers and Anti-IgE Drugs01:25

Antiasthma Drugs: Mast Cell Stabilizers and Anti-IgE Drugs

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Asthma is a chronic respiratory condition for which new therapeutic avenues, including anti-inflammatory drugs like mast cell stabilizers and anti-IgE treatments, continue to be developed.
Mast cell stabilizers, such as cromolyn (also known as sodium cromoglycate) and nedocromil (Tilade), are effective drugs in asthma management. These stabilizers hinder histamine release by skillfully obstructing the activation of mast cells and other cellular entities. Notably, they navigate this task without...
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Asthma-I: Introduction01:29

Asthma-I: Introduction

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Asthma is a chronic respiratory ailment that requires careful management due to its varying symptoms and influencing factors. It is characterized by airway inflammation, bronchial hyperresponsiveness, and reversible airflow obstruction, leading to symptoms like wheezing, shortness of breath, chest tightness, and coughing. The symptom frequency and intensity may vary considerably over time. It is also linked to immune system responses to allergens and irritants, highlighting the complex...
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Asthma-IV: Diagnostic and Management01:30

Asthma-IV: Diagnostic and Management

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The diagnosis and management of asthma are comprehensive, encompassing clinical assessments, lung function tests, and pharmacological interventions. Here's an overview:
Clinical Assessment for Asthma:
This is the first step in diagnosing and managing asthma. It includes:
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Allergic Reactions02:06

Allergic Reactions

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Overview
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Related Experiment Video

Updated: Jun 11, 2025

Murine Model of Allergen Induced Asthma
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Omics in allergy and asthma.

Hirohisa Saito1, Masato Tamari2, Kenichiro Motomura2

  • 1Department of Allergy and Clinical Immunology, National Research Institute for Child Health and Development, Tokyo, Japan; Atopy (Allergy) Research Center, Juntendo University Graduate School of Medicine, Tokyo, Japan.

The Journal of Allergy and Clinical Immunology
|October 9, 2024
PubMed
Summary
This summary is machine-generated.

Omics technologies like genomics and transcriptomics are revolutionizing allergy and asthma research. Single-cell RNA sequencing and genome sequencing enhance understanding of disease mechanisms and aid precision medicine development.

Keywords:
Asthmaatopic dermatitischronic rhinosinusitisgenomicssingle-cell RNA sequencing

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A Reversible, Non-invasive Method for Airway Resistance Measurements and Bronchoalveolar Lavage Fluid Sampling in Mice
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Area of Science:

  • Allergy and Asthma Research
  • Genomics and Transcriptomics
  • Precision Medicine

Background:

  • Recent advancements in high-throughput omics technologies are transforming allergy and asthma research.
  • Single-cell RNA sequencing (scRNA-seq) has significantly improved understanding of allergic disease molecular pathology.
  • High-throughput genome sequencing aids in identifying monogenic disorders previously misdiagnosed.

Purpose of the Study:

  • To review the impact of omics technologies on allergy and asthma research.
  • To highlight advancements in genomics, transcriptomics, and other omics fields.
  • To discuss the potential of integrated omics data for precision medicine.

Main Methods:

  • Review of recent literature on omics technologies in allergy and asthma.
  • Focus on high-throughput technologies like single-cell RNA sequencing and genome sequencing.
  • Introduction to emerging omics fields: microbiomics, proteomics, lipidomics, and metabolomics.

Main Results:

  • scRNA-seq has deepened insights into the molecular underpinnings of allergic diseases.
  • Genome sequencing facilitates the identification of monogenic causes of allergic conditions.
  • Other omics fields show promise but require further validation.

Conclusions:

  • Integrated omics data offers a pathway to a more profound understanding of disease mechanisms.
  • Precision medicine approaches in allergy and asthma are poised for significant advancement.
  • Future research should focus on validating and integrating diverse omics data for clinical application.